CN204054650U - A kind of nut of implantation automatically streamline - Google Patents

Abstract

The utility model relates to device of plastic processing, particularly relates to a kind of nut of implantation automatically streamline.The utility model provides a kind of and automatically implants nut streamline, comprise and transmit station, implantation nut station and detect nut station, described implantation nut station sent into by shell material by described transmission station, and nut heats and sends into described detection nut station after implanting shell material by described implantation nut station.Automatic implantation nut apparatus of the present utility model, improves efficiency of assembling, saves manpower, has saved cost.

Description

A kind of nut of implantation automatically streamline

Technical field

The utility model relates to device of plastic processing, particularly relates to a kind of nut of implantation automatically streamline.

Background technology

Nut is commonly used in the process of assembling product, such as, plastic shell and the mainboard of ammeter need to be fixedly connected with by nut and screw, must first implant in plastic casing by screw nut hot melting, make this nut and plastic casing secure bond, and then by screw, mainboard is secured on plastic casing.

Nut is implanted in plastic parts, have two kinds of modes of production at present.First kind of way is: artificial be directly manually embedded in plastic mould by nut, then injection moulding plastic part; The second way is: first injection moulding plastic part, then utilizes hot-melting tool (such as fuse machine) by screw nut hot melting in plastic parts.But these two kinds of modes of production all need a large amount of personnel to pick and place raw material, and efficiency of assembling is low.

Utility model content

The purpose of this utility model is for the deficiencies in the prior art, provides a kind of and automatically implants nut streamline, full-automaticly can produce, improves efficiency of assembling, do not need human users.

The utility model is by taking following technical scheme to realize, the utility model provides a kind of and automatically implants nut streamline, comprise transmission station, implant nut station and detect nut station, described implantation nut station sent into by shell material by described transmission station, nut heats and sends into described detection nut station after implanting shell material by described implantation nut station, described implantation nut station comprises nut vibrating disc, bracing frame, optoelectronic switch, heating component, housing positioning component, housing clamp system, belt lace line, servo control mechanism, pressure nut body and nut separating mechanism, described pressure nut body is arranged at described servo control mechanism front, described nut separating mechanism is arranged at below described nut separating mechanism, described heating component is arranged at below described nut separating mechanism, described housing positioning component is arranged at below described heating component, described housing clamp system is arranged at described housing positioning component right opposite, described belt lace line is driven by described servo control mechanism, described optoelectronic switch is arranged at described belt lace line side, whether be moved put in place for detecting housing, described nut vibrating disc is arranged at above support frame as described above.

As further improvement of the utility model, described implantation nut station also comprises PLC, and described PLC is arranged on the right side of described pressure nut body.

As further improvement of the utility model, described detection nut station comprises the testing agency be arranged on detection nut station workbench, grasping mechanism, positioning component, cylinder and belt line, described testing agency is arranged at described positioning component right opposite, described grasping mechanism is arranged at and detects after nut station workbench, and described testing agency connects described cylinder.

As further improvement of the utility model, described testing agency is provided with small cylinder.

As further improvement of the utility model, the diameter of described small cylinder is greater than the internal diameter of nut.

As further improvement of the utility model, described positioning component is provided with photoelectric sensor and cylinder axis.

As further improvement of the utility model, described grasping mechanism is provided with sucker.

As further improvement of the utility model, described transmission station is provided with belt and motor, and described belt is by described motor driving.

As further improvement of the utility model, described belt lace line is provided with lowering or hoisting gear.

As further improvement of the utility model, described nut separating mechanism is provided with nut input pipe, and described vibrating disc is delivered to nut in described nut input pipe by plastic tube.

The beneficial effects of the utility model are: automatic implantation nut apparatus of the present utility model, improves efficiency of assembling, saves manpower, saved cost.

Accompanying drawing explanation

Fig. 1 is the structural representation that the utility model implants nut apparatus automatically;

Fig. 2 is the implantation nut station structure schematic diagram that the utility model implants nut apparatus automatically.

Fig. 3 is the detection nut station structure schematic diagram that the utility model implants nut apparatus automatically.

Detailed description of the invention

To illustrate below in conjunction with accompanying drawing and detailed description of the invention further illustrates the utility model.

Numeral in figure: 1, transmit station; 2, nut station is implanted; 3, nut station is detected; 4, nut input pipe; 5, nut separating mechanism; 6, housing clamp system; 7, belt lace line; 8, housing positioning component; 9, heating component; 10, nut body is pressed; 11, servo control mechanism; 12, nut vibrating disc; 13, testing agency; 14, belt line; 15, positioning component; 16, grasping mechanism; 17, cylinder axis; 18, photoelectric sensor; 19, cylinder.

As depicted in figs. 1 and 2, the utility model provides a kind of and automatically implants nut streamline, comprise and transmit station 1, implant nut station 2 and detect nut station 3, described implantation nut station 2 sent into by shell material by described transmission station 1, nut heats and sends into described detection nut station 3 after implanting shell material by described implantation nut station 2, described implantation nut station 2 comprises nut vibrating disc 12, bracing frame, optoelectronic switch, heating component 9, housing positioning component 10, housing clamp system 11, belt lace line 7, servo control mechanism 11, pressure nut body 10 and nut separating mechanism 5, described pressure nut body 10 is arranged at described servo control mechanism 11 front, described nut separating mechanism 5 is arranged at below described nut separating mechanism 5, described heating component 9 is arranged at below described nut separating mechanism 5, described housing positioning component 8 is arranged at below described heating component 9, described housing clamp system 6 is arranged at described housing positioning component 8 right opposite, described belt lace line 7 is driven by described servo control mechanism 11, described optoelectronic switch is arranged at described belt lace line 7 side, whether be moved put in place for detecting housing, described nut vibrating disc 12 is arranged at above support frame as described above.

As shown in Figure 1, described transmission station is provided with belt and motor, and described belt is by described motor driving.

As shown in Figure 2, nut vibrating disc 12, for the sequence of nut.

As shown in Figure 2, servo control mechanism 11, when this mechanism is in top position by servo motor drive, ammeter housing enters the position of planting nut, location, and after clamping, motor driving mechanism declines, and the tremie pipe of nut touches surface of shell bottom.

As shown in Figure 2, pressure nut body 10, by this mechanism, by housing, the nut of planting directly over nut location is pressed in housing.

As shown in Figure 2, heating component 9, this assembly heating rod heats, by nut heating temperatures to more than 300 degree, just can pressed-in nut.

As shown in Figure 2, housing positioning component 8, when the housing motion in belt line is to this position, the cylinder axis be extended blocks, and is located in the movement direction.

As shown in Figure 2, belt lace line 7, described belt lace line 7 is provided with lowering or hoisting gear.When belt line rises, time consistent with both sides belt line height, housing flows into belt line, and after housing being detected, belt lace line declines, and housing rear and front end is fallen on billet, and belt lace line departs from housing.After nut has been implanted, belt lace line has risen, and location, clamp assembly unclamps, and housing flows away.

As shown in Figure 2, housing clamp system 6, after housing is located in the movement direction, this mechanism stretches out, and in the longitudinal direction, is located by housing and clamps.

As shown in Figure 2, nut separating mechanism 5, is separated a nut by this mechanism, and is delivered to by this nut directly over housing implantation nut location.

As depicted in figs. 1 and 2, described implantation nut station 2 also comprises PLC, and described PLC is arranged on the right side of described pressure nut body 10.

As shown in Figure 3, described detection nut station 3 comprises the testing agency 13 be arranged on detection nut station workbench, grasping mechanism 16, positioning component 15, cylinder and belt line 14, described testing agency 13 is arranged at described positioning component 15 right opposite, described grasping mechanism 16 is arranged at and detects after nut station workbench, and described testing agency 13 connects described cylinder.

As shown in Figure 3, described testing agency 13 is provided with small cylinder, testing agency is with a small cylinder, move up and down under cylinder 19 drives.After housing top nut is implanted, the diameter of small cylinder is greater than nut internal diameter, and small cylinder can not extend in nut internal diameter, and cylinder stroke is little, and the magnetic of cylinder down stroke goes into operation non-inductive, and so just think that nut is implanted, product is qualified.Otherwise, if nut is not implanted, hole internal diameter housing not being implanted nut is greater than the diameter of small cylinder, small cylinder can extend in the hole of housing, cylinder 19 stroke driving small cylinder to move up and down becomes large, magnetic below cylinder 19 goes into operation and has induction, and it is implanted that this just thinks that nut does not have, and product is defective.

As shown in Figure 3, described positioning component 15 is provided with photoelectric sensor 18 and cylinder axis 17, positioning component, housing moves to this direction with belt line and moves, after photoelectric sensor 18 detects housing, cylinder axis 17 stretches out, and blocks housing, housing is located on belt movement direction, and by another one cylinder clamping.

As shown in Figure 3, described grasping mechanism 16 is provided with sucker, if Product checking is qualified, grasping mechanism is failure to actuate, and housing is brought into next station by belt line, if Product checking is defective, grasping mechanism action, holds rear transverse shifting by underproof housing, and this housing will leave belt line.

As shown in Figure 3, described nut separating mechanism is provided with nut input pipe, and described vibrating disc is delivered to nut in described nut input pipe by plastic tube.

Above content is in conjunction with concrete preferred embodiment further detailed description of the utility model, can not assert that concrete enforcement of the present utility model is confined to these explanations.For the utility model person of an ordinary skill in the technical field, without departing from the concept of the premise utility, some simple deduction or replace can also be made, all should be considered as belonging to protection domain of the present utility model.

Claims (10)

1. automatically implant nut streamline for one kind, it is characterized in that: comprise transmission station, implant nut station and detect nut station, described implantation nut station sent into by shell material by described transmission station, nut heats and sends into described detection nut station after implanting shell material by described implantation nut station, described implantation nut station comprises nut vibrating disc, bracing frame, optoelectronic switch, heating component, housing positioning component, housing clamp system, belt lace line, servo control mechanism, pressure nut body and nut separating mechanism, described pressure nut body is arranged at described servo control mechanism front, described nut separating mechanism is arranged at below described nut separating mechanism, described heating component is arranged at below described nut separating mechanism, described housing positioning component is arranged at below described heating component, described housing clamp system is arranged at described housing positioning component right opposite, described belt lace line is driven by described servo control mechanism, described optoelectronic switch is arranged at described belt lace line side, whether move into place for detecting housing, described nut vibrating disc is arranged at above support frame as described above.

2. automatically implant nut streamline according to claim 1, it is characterized in that: described implantation nut station also comprises PLC, and described PLC is arranged on the right side of described pressure nut body.

3. automatically implant nut streamline according to claim 1, it is characterized in that: described detection nut station comprises the testing agency be arranged on detection nut station workbench, grasping mechanism, positioning component, cylinder and belt line, described testing agency is arranged at described positioning component right opposite, described grasping mechanism is arranged at and detects after nut station workbench, and described testing agency connects described cylinder.

4. automatically implant nut streamline according to claim 3, it is characterized in that: described testing agency is provided with small cylinder.

5. automatically implant nut streamline according to claim 4, it is characterized in that: the diameter of described small cylinder is greater than the internal diameter of nut.

6. automatically implant nut streamline according to claim 3, it is characterized in that: described positioning component is provided with photoelectric sensor and cylinder axis.

7. automatically implant nut streamline according to claim 3, it is characterized in that: described grasping mechanism is provided with sucker.

8. automatically implant nut streamline according to claim 1, it is characterized in that: described transmission station is provided with belt and motor, and described belt is by described motor driving.

9. automatically implant nut streamline according to claim 1, it is characterized in that: described belt lace line is provided with lowering or hoisting gear.

10. automatically implant nut streamline according to claim 1, it is characterized in that: described nut separating mechanism is provided with nut input pipe, described vibrating disc is delivered to nut in described nut input pipe by plastic tube.